A control unit for a vehicle, having an interface for the exchange of data with a sensor, an actuator, and/or a processing unit, including a data memory, in which a first list with multiple first reference numbers (port) is stored. At least one datum of a sensor or an actuator is allocated to a first reference number, and a second list with second reference numbers is stored in the data memory. At least one parameter of a data transmission is stored for each second reference number, a first reference number being allocated via a modifiable allocation to a second reference number, and the control unit being developed to receive and/or transmit the data of a first reference number in accordance with the parameter of the data transmission of the second reference number.

Embodiments of this disclosure provide a method for controlling a LAN service and a communications service. The method for controlling a LAN service includes: transmitting LAN-service-related information, where the LAN-service-related information includes at least one of the following: LAN service capability information of a terminal, location information of the terminal, LAN service subscription information, and LAN service request information.

Installing on a node of a computer network, an agent of a network system. The installed agent receives a network task via the network. The network task involves a second node of the network. The receiving agent generates a probe implementing the task and targeted to the second node. Either the receiving agent or the generated probe generates a command for the second node. The command is related to the probe and can be in the form of a data link layer protocol data unit for network operations, administration, and maintenance (OAM). The agent or node that generates the command communicates the command to the second node. The second node executes the communicated command. The second node communicates an acknowledgment of the executed command to the first node.

A terminal device management method is implemented in a server coupled to a number of terminal devices. The terminal device management method includes acquiring network configuration information of each terminal device, grouping the terminal devices according to the network configuration information, selecting a preset proportion of terminal devices in each group as primary connection devices, maintaining a communication connection with the primary connection devices, and communicating with the other terminal devices in the groups through the primary terminal devices.

The disclosure relates to technology for sending network management information in a network. A source edge node modifies data packets by encapsulating an operations, administration and maintenance (OAM) header in the data packets traversing a data path, and the OAM header includes a first indicator field. The source edge node also inserts a segment size field into the OAM header of the data packets based on an indication by the first indicator field, the segment size field indicating the data path is partitioned into segments based on a value of the segment size field.

A terminal device management method is implemented in a server coupled to a number of terminal devices. The terminal device management method includes acquiring network configuration information of each terminal device, grouping the terminal devices according to the network configuration information, selecting a preset proportion of terminal devices in each group as primary connection devices, maintaining a communication connection with the primary connection devices, and communicating with the other terminal devices in the groups through the primary terminal devices.

An enterprise network may be managed by enabling provision of a graphical user interface that shows IP address allocations for the network and that allows a user to configure DHCP scopes, receiving a DHCP scope request based on a user interaction with the graphical user interface, translating the request into a protocol for communicating with a DHCP control server, providing the translated request to the DHCP control server for processing at the DHCP control server, and updating configurations of multiple DHCP servers. The updated configurations may be sent from the DHCP control server to a configuration storage system and the multiple DHCP servers may be enabled to access the updated configurations from the configuration storage system.

Methods and systems for configuring a security policy for an enterprise within an enterprise security management tool are disclosed. In some aspects, such systems receive a definition of at least one custom classification within a user interface of the enterprise security management configuration tool, including a name of a profile and network activity associated with one or more nodes to be included within the profile. Such systems also generate a security settings file to be applied within the enterprise, the security settings file including, for each profile, a common security policy to each of the nodes included in the profile. The profiles to which the security settings file is applied include the profile defined by the at least one custom classification.

Described are systems and methods for jointly optimizing Wide Area Network (WAN) and Local Area Network (LAN) network communications. In one embodiment, a management device communicatively interfaced with a WAN and a LAN includes a collection module to collect LAN information from the LAN and WAN information from the WAN; an analysis module to jointly analyze the collected WAN information and the collected LAN information to identify an operational condition; and an implementation nodule to initiate a management event responsive to the operational condition being identified. In one embodiment, the management event includes generating and transmitting a diagnostics report responsive to a fault being identified. The management device may further generate and execute instructions to remedy the diagnosed fault.

Described are systems and methods for jointly optimizing Wide Area Network (WAN) and Local Area Network (LAN) network communications. In one embodiment, a management device communicatively interfaced with a WAN and a LAN includes a collection module to collect LAN information from the LAN and WAN information from the WAN; an analysis module to jointly analyze the collected WAN information and the collected LAN information to identify an operational condition; and an implementation module to initiate a management event responsive to the operational condition being identified. In one embodiment, the management event includes generating and transmitting a diagnostics report responsive to a fault being identified. The management device may further generate and execute instructions to remedy the diagnosed fault.